Patent application number | Description | Published |
20090212387 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A trench is formed on a semiconductor substrate with a first insulation film patterned on the semiconductor substrate as a mask; a second insulation film is embedded in the trench and flattened; an upper portion of the first insulation film is selectively removed, and a part of a side face of the second insulation film is exposed; a part of the second insulation film is isotropically removed; a lower portion of the remaining first insulation film is selectively removed; and then a part of the remaining second insulation film is further isotropically removed so that an upper face of the second insulation film is at a predetermined height from a surface of the semiconductor substrate, a taper having a minimum taper angle of 90° or more is formed on the side face of the second insulation film, and a STI is formed. | 08-27-2009 |
20090309133 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A manufacturing method for semiconductor device includes: forming an opening, in a surface of a semiconductor substrate being composed of first atom, the opening having an opening ratio y to an area of the surface of the semiconductor substrate ranging from 5 to 30%; forming an epitaxial layer in the opening, the epitaxial layer being made of a mixed crystal containing a second atom in a concentration ranging from 15 to 25%, and the second atom having a lattice constant different from a lattice constant of the first atom; implanting impurity ion into the epitaxial layer; and performing activation annealing at a predetermined temperature T, the predetermined temperature T being equal to or higher than 1150° C. and satisfies a relationship of y≦1E-5exp(21541/T). | 12-17-2009 |
20100151696 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE AND HEAT TREATMENT APPARATUS - A manufacturing method for a semiconductor device, includes, forming an element region on a front surface of a semiconductor substrate, performing a first heat treatment by irradiating first irradiation light having a first irradiation energy density onto the front surface of the semiconductor substrate with a pulse width of 0.1 to 100 msec at the temperature of 1000° C. or less; and performing a second heat treatment by irradiating second irradiation light having a second irradiation energy density onto the surface of the semiconductor substrate with a pulse width of 0.1 to 100 msec at the temperature higher than the temperature in the first heat treatment. | 06-17-2010 |
20110001170 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device according to the embodiment includes an element region provided with a transistor, a plurality of mixed crystal layers, a drain electrode and a source electrode, an element isolation layer and a dummy pattern. The mixed crystal layers are the layers made of a first atom composing the semiconductor substrate and a second atom having a lattice constant different from the lattice constant of the first atom and formed on both ends of a region, which becomes a channel of the transistor. The dummy pattern is a layer made of the same material as the mixed crystal layers and formed to extend on the surface of the semiconductor substrate and outside of the element region such that a major direction thereof is different from a <110> direction of the semiconductor. | 01-06-2011 |
20110034015 | HEAT TREATMENT APPARATUS AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - According to one embodiment, a heat treatment apparatus includes a light emitting unit to emit light to irradiate a wafer, a processing unit with a stage section and a control unit. The control unit implements a first irradiation to irradiate the light onto the wafer. After the first irradiation, the control unit changes at least one selected from a disposition of the wafer, a distribution of an intensity of the light on a major surface of the stage section along a circumferential edge direction of the wafer, and a distribution of a temperature of the wafer in a supplemental heating by the stage section along a circumferential edge direction of the wafer. After the changing, the control unit implements a second irradiation to irradiate the light onto the wafer. Durations of the first irradiation and the second irradiation are shorter than a time necessary for the changing. | 02-10-2011 |
20110089525 | Manufacturing method for semiconductor device and semiconductor device - A trench is formed on a semiconductor substrate with a first insulation film patterned on the semiconductor substrate as a mask; a second insulation film is embedded in the trench and flattened; an upper portion of the first insulation film is selectively removed, and a part of a side face of the second insulation film is exposed; a part of the second insulation film is isotropically removed; a lower portion of the remaining first insulation film is selectively removed; and then a part of the remaining second insulation film is further isotropically removed so that an upper face of the second insulation film is at a predetermined height from a surface of the semiconductor substrate, a taper having a minimum taper angle of 90° or more is formed on the side face of the second insulation film, and a STI is formed. | 04-21-2011 |
20110127578 | Manufacturing method for semiconductor device and semiconductor device - A manufacturing method for semiconductor device includes: forming an opening, in a surface of a semiconductor substrate being composed of first atom, the opening having an opening ratio y to an area of the surface of the semiconductor substrate ranging from 5 to 30%; forming an epitaxial layer in the opening, the epitaxial layer being made of a mixed crystal containing a second atom in a concentration ranging from 15 to 25%, and the second atom having a lattice constant different from a lattice constant of the first atom; implanting impurity ion into the epitaxial layer; and performing activation annealing at a predetermined temperature T, the predetermined temperature T being equal to or higher than 1150° C. and satisfies a relationship of y≦1E-5exp (21541/T). | 06-02-2011 |